264 research outputs found
Gas flow environmental and heat transfer nonrotating 3D program
A complete set of benchmark quality data for the flow and heat transfer within a large rectangular turning duct is being compiled. These data will be used to evaluate and verify three dimensional internal viscous flow models and computational codes. The analytical objective is to select such a computational code and define the capabilities of this code to predict the experimental results. Details of the proper code operation will be defined and improvements to the code modeling capabilities will be formulated
A new method for constructing small-bias spaces from Hermitian codes
We propose a new method for constructing small-bias spaces through a
combination of Hermitian codes. For a class of parameters our multisets are
much faster to construct than what can be achieved by use of the traditional
algebraic geometric code construction. So, if speed is important, our
construction is competitive with all other known constructions in that region.
And if speed is not a matter of interest the small-bias spaces of the present
paper still perform better than the ones related to norm-trace codes reported
in [12]
Variability of vertical ground reaction forces in patients with chronic low back pain, before and after chiropractic care.
Introduction
Many chiropractic articles and textbooks discuss gait, but there actually has been little research into the effects of chiropractic adjustment on gait. This pilot study used a quantitative method of gait evaluation before and after a series of chiropractic visits. Hypotheses: (1) adults with chronic low back pain (CLBP) would show increased variability in vertical ground reaction forces (VGRF) while walking, as compared to healthy control subjects, and (2) that, following chiropractic care, will show decreased variability.
Methods
VGRF data were collected for 6 controls and compared to 9 CLBP participants, who were also evaluated before and after the first visit of care and over 7 visits. Data were analyzed by Mean Standard Deviation (MSD), Mean Coefficient of Variation (MCV), and the Coefficient of Variation of loading rate. Chiropractic care consisted of “high velocity low amplitude” thrust type procedures, flexion-distraction, pelvic wedges, light mobilization, and stretching.
Results
CLBP participants had somewhat greater variability and became slightly less variable post-care; differences were not significant. Limitations: Some participants had no impairment of walking at baseline; MSD is an uncommon measure, and more research is needed; these results (small group seen by a single doctor) may not be generalizable.
Conclusions
Participants with CLBP had slightly more variability and had slight decreases in variability following chiropractic care. Differences were not statistically significant. With this small pilot study as a guide, more research should be done with larger groups and improved participant selection
Custom-molded foot-orthosis intervention and multi-segment medial foot kinematics during walking
Context: Foot-orthosis (FO) intervention to prevent and treat numerous lower extremity injuries is widely accepted clinically. However, the results of quantitative gait analyses have been equivocal. The foot models used, participants receiving intervention, and orthoses used might contribute to the variability.
Objective: To investigate the effect of a custom-molded FO intervention on multisegment medial foot kinematics during walking in participants with low-mobile foot posture.
Design: Crossover study.
Setting: University biomechanics and ergonomics laboratory. Patients or Other
Participants: Sixteen participants with low-mobile foot posture (7 men, 9 women) were assigned randomly to 1 of 2 FO groups. Intervention(s): After a 2-week period to break in the FOs, individuals participated in a gait analysis that consisted of 5 successful walking trials (1.3 to 1.4 m/s) during no-FO and FO conditions.
Main Outcome Measure(s): Three-dimensional displacements during 4 subphases of stance (loading response, mid- stance, terminal stance, preswing) were computed for each multisegment foot model articulation.
Results: Repeated-measures analyses of variance (ANO- VAs) revealed that rearfoot complex dorsiflexion displacement during midstance was greater in the FO than the no-FO condition (F114 = 5.24, P=.O4, partial r|2 = 0.27). Terminal stance repeated-measures ANOVA results revealed insert-by-insert condition interactions for the first metatarsophalangeal ¡oint complex (F114=7.87, P=.O1, partial if = 0.36). However, additional follow-up analysis did not reveal differences between the no-FO and FO conditions for the balanced traditional ortho- sis (F, 14 = 4.32, P = .O8, partial if = 0.38) or full-contact orthosis (F1i14 = 4.10, P=.O8, partial if = 0.37).
Conclusions: Greater rearfoot complex dorsiflexion during midstance associated with FO intervention may represent improved foot kinematics in people with low-mobile foot postures. Furthermore, FO intervention might partially correct dysfunctional kinematic patterns associated with low-mobile foot postures.
Relative generalized hamming weights and extended weight polynomials of almost affine codes
This is a post-peer-review, pre-copyedit version of an article published in Lecture Notes in Computer Science, International Castle Meeting on Coding Theory and Applications ICMCTA 2017: Coding Theory and Applications, 207-216. The final authenticated version is available online at: http://dx.doi.org/10.1007/978-3-319-66278-7_17 .This paper is devoted to giving a generalization from linear
codes to the larger class of almost affine codes of two different results.
One such result is how one can express the relative generalized Hamming
weights of a pair of codes in terms of intersection properties between the
smallest of these codes and subcodes of the largest code. The other result
tells how one can find the extended weight polynomials, expressing the
number of codewords of each possible weight, for each code in an infinite
hierarchy of extensions of a code over a given alphabet. Our tools will
be demi-matroids and matroids
Constraining Quasar and IGM Properties Through Bubble Detection in Redshifted 21-cm Maps
The infrared detection of a z>7 quasar has opened up a new window to directly
probe the IGM during the epoch of reionization. In this paper we theoretically
consider the possibility of detecting the ionized bubble around a z=8 quasar
using targeted redshifted 21-cm observations with the GMRT. The apparent shape
and size of the ionized bubble, as seen by a distant observer, depends on the
parameters \dot{N}_{phs}/C, x_HI/C and \tau_Q where \dot{N}_{phs}, \tau_Q, x_HI
and C are respectively the photon emission rate, age of the quasar, the neutral
fraction and clumping factor of the IGM.Here we have analytically estimated the
shape and size of a quasar's ionized bubble assuming an uniform IGM and
ignoring other ionizing sources besides the quasar, and used this as a template
for matched filter bubble search with the GMRT visibility data. We have assumed
that \dot{N}_{phs} is known from the infrared spectrum and C from theoretical
considerations, which gives us two free parameters x_HI and \tau_Q for bubble.
Considering 1,000 hr of observation, we find that there is a reasonably large
region of parameter space where a 3\sigma detection is possible. We also find
that it will be possible to place lower limits on x_HI and \tau_Q with this
observation. Deeper follow up observations can place upper limits on \tau_Q and
x_HI. Value of C affect the estimation of x_HI but the estimation of \tau_Q
remains unaffected.We have used a semi-numerical technique to simulate the
apparent shape and size of quasar ionized bubbles considering the presence of
other ionizing sources and inhomogeneities in the IGM. The presence of other
sources increase the size of the quasar bubble, leading to underestimation of
x_HI. Clustering of other ionizing sources around the quasar can produce severe
distortions in bubble's shape. However, this does not severely affect parameter
estimation in the bubbles that are large.Comment: 18 pages, 16 figures, 3 tables. Minor change in text. Accepted for
publication in MNRA
Prospects of observing a quasar HII region during the Epoch of Reionization with redshifted 21cm
We present a study of the impact of a bright quasar on the redshifted 21cm
signal during the Epoch of Reionization (EoR). Using three different
cosmological radiative transfer simulations, we investigate if quasars are
capable of substantially changing the size and morphology of the H II regions
they are born in. We choose stellar and quasar luminosities in a way that is
favourable to seeing such an effect. We find that even the most luminous of our
quasar models is not able to increase the size of its native H II region
substantially beyond those of large H II regions produced by clustered stellar
sources alone. However, the quasar H II region is found to be more spherical.
We next investigate the prospects of detecting such H II regions in the
redshifted 21cm data from the Low Frequency Array (LOFAR) by means of a matched
filter technique. We find that H II regions with radii ~ 25 comoving Mpc or
larger should have a sufficiently high detection probability for 1200 hours of
integration time. Although the matched filter can in principle distinguish
between more and less spherical regions, we find that when including realistic
system noise this distinction can no longer be made. The strong foregrounds are
found not to pose a problem for the matched filter technique. We also
demonstrate that when the quasar position is known, the redshifted 21cm data
can still be used to set upper limits on the ionizing photon rate of the
quasar. If both the quasar position and its luminosity are known, the
redshifted 21 cm data can set new constrains on quasar lifetimes.Comment: 17 pages, 12 figures, 3 tables, accepted for publication in MNRAS;
changes in introduction and figure
Relaxation in the glass-former acetyl salicylic acid studied by deuteron magnetic resonance and dielectric spectroscopy
Supercooled liquid and glassy acetyl salicylic acid was studied using
dielectric spectroscopy and deuteron relaxometry in a wide temperature range.
The supercooled liquid is characterized by major deviations from thermally
activated behavior. In the glass the secondary relaxation exhibits the typical
features of a Johari-Goldstein process. Via measurements of spin-lattice
relaxation times the selectively deuterated methyl group was used as a
sensitive probe of its local environments. There is a large difference in the
mean activation energy in the glass with respect to that in crystalline acetyl
salicylic acid. This can be understood by taking into account the broad energy
barrier distribution in the glass.Comment: 8 pages, 3 figures, Submitted to Phys. Rev.
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